CA1093291A - Cutter head - Google Patents
Cutter headInfo
- Publication number
- CA1093291A CA1093291A CA316,848A CA316848A CA1093291A CA 1093291 A CA1093291 A CA 1093291A CA 316848 A CA316848 A CA 316848A CA 1093291 A CA1093291 A CA 1093291A
- Authority
- CA
- Canada
- Prior art keywords
- cutting
- knives
- cutter head
- defining
- width
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired
Links
Classifications
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B27—WORKING OR PRESERVING WOOD OR SIMILAR MATERIAL; NAILING OR STAPLING MACHINES IN GENERAL
- B27B—SAWS FOR WOOD OR SIMILAR MATERIAL; COMPONENTS OR ACCESSORIES THEREFOR
- B27B33/00—Sawing tools for saw mills, sawing machines, or sawing devices
- B27B33/20—Edge trimming saw blades or tools combined with means to disintegrate waste
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B27—WORKING OR PRESERVING WOOD OR SIMILAR MATERIAL; NAILING OR STAPLING MACHINES IN GENERAL
- B27L—REMOVING BARK OR VESTIGES OF BRANCHES; SPLITTING WOOD; MANUFACTURE OF VENEER, WOODEN STICKS, WOOD SHAVINGS, WOOD FIBRES OR WOOD POWDER
- B27L11/00—Manufacture of wood shavings, chips, powder, or the like; Tools therefor
- B27L11/007—Combined with manufacturing a workpiece
-
- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y10—TECHNICAL SUBJECTS COVERED BY FORMER USPC
- Y10T—TECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
- Y10T407/00—Cutters, for shaping
- Y10T407/19—Rotary cutting tool
- Y10T407/1902—Gang
Landscapes
- Life Sciences & Earth Sciences (AREA)
- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- Wood Science & Technology (AREA)
- Forests & Forestry (AREA)
- Manufacturing & Machinery (AREA)
- Crushing And Pulverization Processes (AREA)
- Manufacture Of Wood Veneers (AREA)
Abstract
Abstract Cutter head especially for a canter-chipper or chipper-edger comprising a body mounted on a shaft of rotation and cutting knives fastened in the body. The cutting knives form parallel cutting paths. The cutting knives in the cutting paths next to the log having a cutting width of about 8-25 % of the total cutting width of the cutter head are mounted on an easily removable ring faci-litating the replacement of these swiftly wearing cutting knives.
Description
This invention relates to a cutter head, for example, for a canter-chipper or chipper-edger. A known cutter head comprises a rotary shaft disposed substantially perpendicular to the direction of feed of the log, a body mounted on the rotary shaft and cutting knives fastened on the body and arranged to form a few parallel cutting strips. The diameters of the cutting circles defined by the knives forming the different strips increase in the direction away from the log to be treated, and the knives are arranged stepwise one after the other so that the cutting knives in each outer cutting path having a larger diameter always cut before the cutting knives in the next inner cutting path.
By means of such cutter heads, canter-chippers cut the slabs of logs and chipper-edgers cut the edge portions of boards straight into chips.
The present cutter head construction is the result of both practical and laboratory studies performed during a number of years and of discoveries made in the course of these studies.
In the very initial stage of the studies, which at that time were concentrated on the cutting force of the kni~es, it was found to be expedient to divide the cutting width of the cutter head into a few parallel cutting strips in the manner described above. The operation of such a cutter head is smooth and the log is fairly easy to guide, especially when the kni~es cut across the entire width of the cutter head.
Similarly, it was in the very beginning found to be expedient to use only an open cutting where the chips are freely discharged as soon as they are formed.
~hen studying the dependence of the chip quality on various factors the angle of inclination of the knife proved to ~e of central significance. ~he angle of inc]ination (k) in this case refers to the angle between the main cutting edge of the knifel cutting through the wood grains, or the projection 10~3291 of said edge in a plane passing through the axis of rotation of the cutter head, and the axis of the cutter head.
A large angle of inclination, about 55 to 70, proved to be very advantageous. In this case, the proportion of less valuable chipping fines to be screened off is small and the ends of the chips are practically undamaged. Also the thickness distribution of the chips is generally good. However, if the industry using chips has a definite requirement as to the thickness, for example, maximum 5 mm, this requirement can be satisfied by selecting a width of 5 mm for the cutting strips.
In practice, in addition to the chip quality, ever higher requirements are also made on the smoothness of the surface cut by the cutter head which should be first-class also at the knots. In extensive studies concerning this problem, a large angle of inclination of the knife again proved to be advantageous. The quality of the surface is decisively improved also in difficult cases if, additionally, the number of the knives located closest to the log, i.e. the number of finishing knives is increased. If, for example, the number of knives in th~ other cutting strips in the cutter head is 2 and the number of revolutions of the cutter head and the feed speed of the log are selected so that the length of chips (1) in the direction of grains is 24 mm, the number of knives in the finishing strip may be selected to be, e.g., 4, 6 or 8. The length of the chips obtained in the finishing strip is then correspondingly 1 = 12, 8 or 6 mm. Also in the last mentioned case (1 = 6 mm), the flakes are still usable chips and not less valuable sawdust which is obtained if a circular saw blade is used as finishing tool.
The surface quality is further improved if the width of the finishing strip is reduced. However, the limitation is that the finishing knives should remove the recesses left by
By means of such cutter heads, canter-chippers cut the slabs of logs and chipper-edgers cut the edge portions of boards straight into chips.
The present cutter head construction is the result of both practical and laboratory studies performed during a number of years and of discoveries made in the course of these studies.
In the very initial stage of the studies, which at that time were concentrated on the cutting force of the kni~es, it was found to be expedient to divide the cutting width of the cutter head into a few parallel cutting strips in the manner described above. The operation of such a cutter head is smooth and the log is fairly easy to guide, especially when the kni~es cut across the entire width of the cutter head.
Similarly, it was in the very beginning found to be expedient to use only an open cutting where the chips are freely discharged as soon as they are formed.
~hen studying the dependence of the chip quality on various factors the angle of inclination of the knife proved to ~e of central significance. ~he angle of inc]ination (k) in this case refers to the angle between the main cutting edge of the knifel cutting through the wood grains, or the projection 10~3291 of said edge in a plane passing through the axis of rotation of the cutter head, and the axis of the cutter head.
A large angle of inclination, about 55 to 70, proved to be very advantageous. In this case, the proportion of less valuable chipping fines to be screened off is small and the ends of the chips are practically undamaged. Also the thickness distribution of the chips is generally good. However, if the industry using chips has a definite requirement as to the thickness, for example, maximum 5 mm, this requirement can be satisfied by selecting a width of 5 mm for the cutting strips.
In practice, in addition to the chip quality, ever higher requirements are also made on the smoothness of the surface cut by the cutter head which should be first-class also at the knots. In extensive studies concerning this problem, a large angle of inclination of the knife again proved to be advantageous. The quality of the surface is decisively improved also in difficult cases if, additionally, the number of the knives located closest to the log, i.e. the number of finishing knives is increased. If, for example, the number of knives in th~ other cutting strips in the cutter head is 2 and the number of revolutions of the cutter head and the feed speed of the log are selected so that the length of chips (1) in the direction of grains is 24 mm, the number of knives in the finishing strip may be selected to be, e.g., 4, 6 or 8. The length of the chips obtained in the finishing strip is then correspondingly 1 = 12, 8 or 6 mm. Also in the last mentioned case (1 = 6 mm), the flakes are still usable chips and not less valuable sawdust which is obtained if a circular saw blade is used as finishing tool.
The surface quality is further improved if the width of the finishing strip is reduced. However, the limitation is that the finishing knives should remove the recesses left by
- 2 -109329i the knives cutting longer chips in the preceding cutting strip.
The practical application o~ the results obtained was, however, hampered by the fact that a large angle of inclination results in a large outer diameter in the cutter head and narrow cutting paths involve a large number of knives, which facts with regard to the construction of the machine and the service of the cutter head are undesirable.
A successful solution to these problems was, however, found in the unexpected discovery that practically the entire chipping is actually carried out in a very narrow zone of the cutter head which faces the log and which can be called the cutting zone proper. The main part of the cutting width of the cutter head, on the other hand, functions as a reserve zone which in itself is necessary because of butt expansions occasionally occurring in logs and because of possible incorrect guiding of the log, the wood quantity chipped by said zone, however, being so small that it has nearly no effect on the average quality of chips.
This led to the cutter head construction described pre~iously by the applicant (United States Patent 4,147,193), in which a large angle of incli~ation of the main cutting edge of the knives and, i~ necessary, narrow cutting strips are used only in the cutting zone proper and a small angle of inclination and relatively wide cutting strips are used in the reserve zone.
On the other hand, in such a cutter head of a small diameter such a large n~mber of revolutions can be used that, even when aiming at a high feed speed, seldom more than two knives are needed in the same cutting zone. However, in the finishing strip closest to the log it is expedient to use four or six knives depending on the wood quality and cn the requirements made on the surface smoothness. It has been found that an 1~)93291 advantageous number of cutting strips in the narrow cutting zone proper is 2 to 5 and very expediently 3 and in the wide reserve zone 1 to 3, expediently 2.
Although the described cutter head construction has proved to be very useful in practice, further studies related to the cutter head led to new and even more important discoveries concerning the improvement of the cutter head construction. The division of the cutting width of the cutter head into a cutting zone proper and a reserve zone soon proved to be of a deeper significance than described above.
The invention provides a cutter head, comprising a shaft having a central axis, which shaft can be mounted to rotate about said central axis with said central axis disposed substantially perpendicular to the direction of feed of a length of timber to be cut, and at least two sets of cutting knives defining respective cutting circles the diameter~ of which increase in the direction away from the length of timber along said central axis, the entire cutting width of the cutter head, measured in a direction parallel to said central axis, thereby being divided into parallel cutting strips defined by said sets of knives, and the knives of each two adjacent sets, defining smaller and larger cutting circles respectively, being staggered one after the other so that a knife of the set defining the larger cutting circle always cuts before a knife of the set defining the smaller cutting circle, and wherein at least one set of knives, including the set defining the smallest cutting circle, defines the cutting zone proper of the cutter head, the width of which zone is from about 8 per cent to about 25 per cent of the total cutting width of the cutter head, and the cutter head further comprises a body mounted on the shaft and to which the knives of at least one set other than said at least 1()93291 one set defining the cutting zone proper are secured, and a disc or ring secured to said body in easily removable manner and upon which the knives of said at least one set defining the cutting zone proper are mounted.
By fastening the knives in the cutting zone proper on a replaceable cutting disc or cutting ring easily removable from the remaining cutter head, servicing of the cutter head will be simple and easy and interruptions in production due to sharpening of the knives or possible knife damage will be very short. The knives in the cutting zone proper which are subjected to the hardest wear can now be replaced for sharpening outside the machine and only a few knives with a minor cutting function in the reserve zone must be changed in the machine itself.
In addition, an entirely new, unexpected advantage which in practice is of a decisive importance appeared to be the possibility to use in each machining case a cutting ring best suitable for the desired chip quality or the surface smoothness. By changing the cutting ring performing nearly the entire chipping practically the same effect is obtained as by the reconstruction and cumbersome replacement of the entire expensive cutter head.
Despite the fact that this cutter head construction now seemed to be "ready", it could still be decisively by improved continued research work and a new discovery forming an embodiment of the in~ention. Although the cutting forces stressing the knives are quite small, unexpectedly great stresses may in case of any disturbance be applied on the knives, said stresses having a tendency to bend and break especially the narrow finishing knives. Moreover, slivers tend to penetrate into the fastening points of the knives in spite of the free discharge of thc chips. These are difficulties occurring in practice in nearly all cutter heads, 10~3291 especially in those cases where a removable circular saw blade or blade segments are used instead of finishing knives. In the present case, both difficulties could be entirely eli-minated when recognizing that removable separate knives could be omitted in the cutting ring of the cutting zone proper and that the cutting ring and the knives or "teeth" therein could be made integral. As all knives are wider than their cutting strip, no bending of the knives can occur. The wide "gullets", on the other hand, completely prevent the clogging of the cutting ring or the sticking of slivers to the knives.
In principle, the one-piece cutting ring can be made entirely of hardened steel, but it is even more appropriate to make the cutting ring and the knives therein, for example, of tough constructional steel and to use hardened high speed steel, tungsten carbide or any other cutting material in a manner known per se as cutting bits in the actual cutting portion of the knives only. The cutting portion can also be formed by welding, e.g., of stellite.
As it is, the cutting disc or cutting ring of the present invention is distinct and simple in construction, economical to manufacture and easy to maintain.
In addition, cutting rings best suited f~r various applications are simply made at low costs, and also the total cutting width of these rings may vary.
One preferred embodiment of the cutter head according to the invention will now be described in more detail by means of numerical examples and with reference to the accompanying drawings, in which Figure 1 is a schematic view of a left-hand cutter head, when viewed in the feeding direction of the log and from the side of the log, Figure 2 is a top Yiew of the cutter head, Figure 3 is a section along line III-III in Figures 1 and 5 of one knife in the-cutting zone proper, when viewed in the feeding direction of the log. The ring is further thought to be aligned in the horizontal plane, whereby also the next two knives are visible in the backgroun~, Figure 4 is a top view of the same point in the aligned ring as in Figure 3 and of the knives therein, Figure 5 is a view of the cutting ring removed from the cutter head, when viewed from the opposite side as compared to Figure 1, Figure 6 is a top view of a log to be canted, Figure 7 illustrates the same log, when viewed from the top end, Fiugre 8 is a top end view of a slab to be chipped off along line ~-A from the log shown in the preceding Figures.
In the Figures, reference numeral 1 denotes the body of a cutter head and la a central flange pro~ided therein.
~umeral 2 indicates a cutting ring in the cutting zone proper, said ring being provided with four finishing knives 2a and two kni~es 2b and 2c. Numerals 3d and 4e denote the knives in the reserve zone whi~h are in a suitable manner fastened on corresponding knife arms 3 and 4. The number of finishing knives 2a is thus in this case twice the number of the other knives and they, accordingly, cut chips half as long as the chips cut by the other knives e.g., of a length of 12 mm in the direction of the grain, if the length of chips cut by the other knîves in that direction is 24 mm.
The cutter head is assembled, e.g., by means of bolts (not shown in the Figures) passing through the knife arms 3 and 4 as well as the flange la. The cutting ring 2 is, on the other 10~3Z9l hand, fastened in easily removable manner to this combination by means of other bolts.
Numeral 6 denotes a log fed at a speed u toward the cutter head. Numeral 5 indicates the shaft of the cutter head arranged essentially perpendicularly to the direction of feed u and movable in the axial direction.
As is clearly seen from Figures 1 to 5, the cutting ring 2 is made integral with its knives or "teeth" 2a, 2b and 2c. The actual cutting portions of the knives are shown shadowed in the Figures and are comprised of cutting bits fastened on the knives, for example, by soldering.
In the Figures, Sl denotes the main cutting edge which actually cuts wood fibers, S2 denotes the finishing edge parallel to the cutting plane and serving to remove the cut fibers from the log, and k denotes the angle of inclination of the main cutting edge Sl.
Figures 3 and 4 illustrating the stepped arrangement of the cutting knives 2c and 2b and the finishing knife 2a in the radial and axial direction, respectively, of the cutter head and additionally show the cutting strips of the knives. The width of the stxips a and b is in this case 5 mm, that of the cutting strip c 10 mm and, accordingly the width of the entire cutting zone proper fl 20 mm. The knives themselves are wider than their cutting strips.
In the illustrated example of the invention, the total cutting width ~ of the cutter head is 130 mm and the width of the reserve zone f~, accordingly, 110 mm and that of each of its cutting strips d and e 55 mm.
The advantageousness of such a construction is supported by extensive computer calculations, whereof Figures 6 to 8 illustrate one representative arithmetical example in which, 109~291 by means of the relatively narrow (f = 130 mm) cutter head described above, an average slab 6a is cut from a log 6 of average conicity. In the computer study, the log ha~ing a length 1 = 4500 mm, was regarded as a mathematical truncated cone having a top diameter dl = 200 and a butt diameter d2 = 230 mm. If the thickness of the slab 6a to be cut off at the top is 10 mm and at the butt, accordingly, 25 mm, this slab represents about 4.5 per cent of the total log volume.
Figure 8 additionally shows the percentile distribution of the volume V of the slab 6a on 5 mm thick lamellas, whereby ~our lamella~ 6al to 6a4 on the side of the log represent in all 98 per cent of the entire slab volume. Accordingly, the share to be cut by the reserve zone would in this case be only 2 per cent of the slab volume V. In this case, the width of 20 mm used in the cutting zone proper fl is quite sufficient and amounts to only 15.4 per cent of the total cutting width f = 130 mm of the cutter head.
The cutting width fl of the cutting zone proper, which also is ~he cutting width of the removable cutting ring, and the cutting width f of the entire cutter head as well as the mutual relation between these widths may, of course, vary from case to case depending on the application of the cutter head. If, for example, in canting only 90 per cent of the slab ~olume V to be chipped is to be cut off by means of the remoYable cutting ring, the cutting ring will be relatively narrow and li~ht-weight. On the other hand, it may be appropriate to use, for example, in a smaller cutter head used in edging a somewhat wider cutting ring.
The cutting width fl of the cutting ring is, however, always only a fraction, about 8 to 25 per cent, of the total cutting width f of the cutter head. The width fl used in the above described example and amounting to about 15 per cent of the total cutting width f of the cutter head is likely to be very advantageous in most cases and said 15 per cent, accordingly, very well describes the magnitude of the cutting width of the cutting ring.
The practical application o~ the results obtained was, however, hampered by the fact that a large angle of inclination results in a large outer diameter in the cutter head and narrow cutting paths involve a large number of knives, which facts with regard to the construction of the machine and the service of the cutter head are undesirable.
A successful solution to these problems was, however, found in the unexpected discovery that practically the entire chipping is actually carried out in a very narrow zone of the cutter head which faces the log and which can be called the cutting zone proper. The main part of the cutting width of the cutter head, on the other hand, functions as a reserve zone which in itself is necessary because of butt expansions occasionally occurring in logs and because of possible incorrect guiding of the log, the wood quantity chipped by said zone, however, being so small that it has nearly no effect on the average quality of chips.
This led to the cutter head construction described pre~iously by the applicant (United States Patent 4,147,193), in which a large angle of incli~ation of the main cutting edge of the knives and, i~ necessary, narrow cutting strips are used only in the cutting zone proper and a small angle of inclination and relatively wide cutting strips are used in the reserve zone.
On the other hand, in such a cutter head of a small diameter such a large n~mber of revolutions can be used that, even when aiming at a high feed speed, seldom more than two knives are needed in the same cutting zone. However, in the finishing strip closest to the log it is expedient to use four or six knives depending on the wood quality and cn the requirements made on the surface smoothness. It has been found that an 1~)93291 advantageous number of cutting strips in the narrow cutting zone proper is 2 to 5 and very expediently 3 and in the wide reserve zone 1 to 3, expediently 2.
Although the described cutter head construction has proved to be very useful in practice, further studies related to the cutter head led to new and even more important discoveries concerning the improvement of the cutter head construction. The division of the cutting width of the cutter head into a cutting zone proper and a reserve zone soon proved to be of a deeper significance than described above.
The invention provides a cutter head, comprising a shaft having a central axis, which shaft can be mounted to rotate about said central axis with said central axis disposed substantially perpendicular to the direction of feed of a length of timber to be cut, and at least two sets of cutting knives defining respective cutting circles the diameter~ of which increase in the direction away from the length of timber along said central axis, the entire cutting width of the cutter head, measured in a direction parallel to said central axis, thereby being divided into parallel cutting strips defined by said sets of knives, and the knives of each two adjacent sets, defining smaller and larger cutting circles respectively, being staggered one after the other so that a knife of the set defining the larger cutting circle always cuts before a knife of the set defining the smaller cutting circle, and wherein at least one set of knives, including the set defining the smallest cutting circle, defines the cutting zone proper of the cutter head, the width of which zone is from about 8 per cent to about 25 per cent of the total cutting width of the cutter head, and the cutter head further comprises a body mounted on the shaft and to which the knives of at least one set other than said at least 1()93291 one set defining the cutting zone proper are secured, and a disc or ring secured to said body in easily removable manner and upon which the knives of said at least one set defining the cutting zone proper are mounted.
By fastening the knives in the cutting zone proper on a replaceable cutting disc or cutting ring easily removable from the remaining cutter head, servicing of the cutter head will be simple and easy and interruptions in production due to sharpening of the knives or possible knife damage will be very short. The knives in the cutting zone proper which are subjected to the hardest wear can now be replaced for sharpening outside the machine and only a few knives with a minor cutting function in the reserve zone must be changed in the machine itself.
In addition, an entirely new, unexpected advantage which in practice is of a decisive importance appeared to be the possibility to use in each machining case a cutting ring best suitable for the desired chip quality or the surface smoothness. By changing the cutting ring performing nearly the entire chipping practically the same effect is obtained as by the reconstruction and cumbersome replacement of the entire expensive cutter head.
Despite the fact that this cutter head construction now seemed to be "ready", it could still be decisively by improved continued research work and a new discovery forming an embodiment of the in~ention. Although the cutting forces stressing the knives are quite small, unexpectedly great stresses may in case of any disturbance be applied on the knives, said stresses having a tendency to bend and break especially the narrow finishing knives. Moreover, slivers tend to penetrate into the fastening points of the knives in spite of the free discharge of thc chips. These are difficulties occurring in practice in nearly all cutter heads, 10~3291 especially in those cases where a removable circular saw blade or blade segments are used instead of finishing knives. In the present case, both difficulties could be entirely eli-minated when recognizing that removable separate knives could be omitted in the cutting ring of the cutting zone proper and that the cutting ring and the knives or "teeth" therein could be made integral. As all knives are wider than their cutting strip, no bending of the knives can occur. The wide "gullets", on the other hand, completely prevent the clogging of the cutting ring or the sticking of slivers to the knives.
In principle, the one-piece cutting ring can be made entirely of hardened steel, but it is even more appropriate to make the cutting ring and the knives therein, for example, of tough constructional steel and to use hardened high speed steel, tungsten carbide or any other cutting material in a manner known per se as cutting bits in the actual cutting portion of the knives only. The cutting portion can also be formed by welding, e.g., of stellite.
As it is, the cutting disc or cutting ring of the present invention is distinct and simple in construction, economical to manufacture and easy to maintain.
In addition, cutting rings best suited f~r various applications are simply made at low costs, and also the total cutting width of these rings may vary.
One preferred embodiment of the cutter head according to the invention will now be described in more detail by means of numerical examples and with reference to the accompanying drawings, in which Figure 1 is a schematic view of a left-hand cutter head, when viewed in the feeding direction of the log and from the side of the log, Figure 2 is a top Yiew of the cutter head, Figure 3 is a section along line III-III in Figures 1 and 5 of one knife in the-cutting zone proper, when viewed in the feeding direction of the log. The ring is further thought to be aligned in the horizontal plane, whereby also the next two knives are visible in the backgroun~, Figure 4 is a top view of the same point in the aligned ring as in Figure 3 and of the knives therein, Figure 5 is a view of the cutting ring removed from the cutter head, when viewed from the opposite side as compared to Figure 1, Figure 6 is a top view of a log to be canted, Figure 7 illustrates the same log, when viewed from the top end, Fiugre 8 is a top end view of a slab to be chipped off along line ~-A from the log shown in the preceding Figures.
In the Figures, reference numeral 1 denotes the body of a cutter head and la a central flange pro~ided therein.
~umeral 2 indicates a cutting ring in the cutting zone proper, said ring being provided with four finishing knives 2a and two kni~es 2b and 2c. Numerals 3d and 4e denote the knives in the reserve zone whi~h are in a suitable manner fastened on corresponding knife arms 3 and 4. The number of finishing knives 2a is thus in this case twice the number of the other knives and they, accordingly, cut chips half as long as the chips cut by the other knives e.g., of a length of 12 mm in the direction of the grain, if the length of chips cut by the other knîves in that direction is 24 mm.
The cutter head is assembled, e.g., by means of bolts (not shown in the Figures) passing through the knife arms 3 and 4 as well as the flange la. The cutting ring 2 is, on the other 10~3Z9l hand, fastened in easily removable manner to this combination by means of other bolts.
Numeral 6 denotes a log fed at a speed u toward the cutter head. Numeral 5 indicates the shaft of the cutter head arranged essentially perpendicularly to the direction of feed u and movable in the axial direction.
As is clearly seen from Figures 1 to 5, the cutting ring 2 is made integral with its knives or "teeth" 2a, 2b and 2c. The actual cutting portions of the knives are shown shadowed in the Figures and are comprised of cutting bits fastened on the knives, for example, by soldering.
In the Figures, Sl denotes the main cutting edge which actually cuts wood fibers, S2 denotes the finishing edge parallel to the cutting plane and serving to remove the cut fibers from the log, and k denotes the angle of inclination of the main cutting edge Sl.
Figures 3 and 4 illustrating the stepped arrangement of the cutting knives 2c and 2b and the finishing knife 2a in the radial and axial direction, respectively, of the cutter head and additionally show the cutting strips of the knives. The width of the stxips a and b is in this case 5 mm, that of the cutting strip c 10 mm and, accordingly the width of the entire cutting zone proper fl 20 mm. The knives themselves are wider than their cutting strips.
In the illustrated example of the invention, the total cutting width ~ of the cutter head is 130 mm and the width of the reserve zone f~, accordingly, 110 mm and that of each of its cutting strips d and e 55 mm.
The advantageousness of such a construction is supported by extensive computer calculations, whereof Figures 6 to 8 illustrate one representative arithmetical example in which, 109~291 by means of the relatively narrow (f = 130 mm) cutter head described above, an average slab 6a is cut from a log 6 of average conicity. In the computer study, the log ha~ing a length 1 = 4500 mm, was regarded as a mathematical truncated cone having a top diameter dl = 200 and a butt diameter d2 = 230 mm. If the thickness of the slab 6a to be cut off at the top is 10 mm and at the butt, accordingly, 25 mm, this slab represents about 4.5 per cent of the total log volume.
Figure 8 additionally shows the percentile distribution of the volume V of the slab 6a on 5 mm thick lamellas, whereby ~our lamella~ 6al to 6a4 on the side of the log represent in all 98 per cent of the entire slab volume. Accordingly, the share to be cut by the reserve zone would in this case be only 2 per cent of the slab volume V. In this case, the width of 20 mm used in the cutting zone proper fl is quite sufficient and amounts to only 15.4 per cent of the total cutting width f = 130 mm of the cutter head.
The cutting width fl of the cutting zone proper, which also is ~he cutting width of the removable cutting ring, and the cutting width f of the entire cutter head as well as the mutual relation between these widths may, of course, vary from case to case depending on the application of the cutter head. If, for example, in canting only 90 per cent of the slab ~olume V to be chipped is to be cut off by means of the remoYable cutting ring, the cutting ring will be relatively narrow and li~ht-weight. On the other hand, it may be appropriate to use, for example, in a smaller cutter head used in edging a somewhat wider cutting ring.
The cutting width fl of the cutting ring is, however, always only a fraction, about 8 to 25 per cent, of the total cutting width f of the cutter head. The width fl used in the above described example and amounting to about 15 per cent of the total cutting width f of the cutter head is likely to be very advantageous in most cases and said 15 per cent, accordingly, very well describes the magnitude of the cutting width of the cutting ring.
Claims (6)
PROPERTY OR PRIVILEGE IS CLAIMED ARE DEFINED AS FOLLOWS:
1. A cutter head, comprising a shaft having a central axis, which shaft can be mounted to rotate about said central axis with said central axis disposed substantially perpendicular to the direction of feed of a length of timber to be cut, and at least two sets of cutting knives defining respective cutting circles the diameters of which increase in the direction away from the length of timber along said central axis, the entire cutting width of the cutter head, measured in a direction parallel to said central axis, thereby being divided into parallel cutting strips defined by said sets of knives, and the knives of each two adjacent sets, defining smaller and larger cutting circles respectively, being staggered one after the other so that a knife of the set defining the larger cutting circle always cuts before a knife of the set defining the smaller cutting circle, and wherein at least one set of knives, including the set defining the smallest cutting circle, defines the cutting zone proper of the cutter head, the width of which zone is from about 8 per cent to about 25 per cent of the total cutting width of the cutter head, and the cutter head further comprises a body mounted on the shaft and to which the knives of at least one set other than said at least one set defining the cutting zone proper are secured, and a disc or ring secured to said body in easily removable manner and upon which the knives of said at least one set defining the cutting zone proper are mounted.
2. A cutter head as claimed in claim 1, wherein the width of the cutting zone proper is about 15 per cent of the total cutting width of the cutter head.
3. A cutter head as claimed in claim 1, wherein the knives mounted upon the disc or ring are integral therewith.
4. A cutter head as claimed in claim 1, 2 or 3, wherein the knives of at least one set include cutting bits which are fastened to the knives.
5. A cutter head as claimed in claim 1, wherein the number of sets of knives defining the cutting zone proper is from 2 to 5 and the number of other sets of knives is from 1 to 3.
6. A cutter head as claimed in claim 1 or 5, wherein the number of sets of knives defining the cutting zone proper is 3 and the number of other sets of knives is 2.
Applications Claiming Priority (4)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
FI773565 | 1977-11-24 | ||
FI773565A FI773565A (en) | 1977-11-24 | 1977-11-24 | COUPLE INTERESTS |
FI783024 | 1978-10-04 | ||
FI783024A FI783024A (en) | 1978-10-04 | 1978-10-04 | KUTTERHUVUD |
Publications (1)
Publication Number | Publication Date |
---|---|
CA1093291A true CA1093291A (en) | 1981-01-13 |
Family
ID=26156912
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CA316,848A Expired CA1093291A (en) | 1977-11-24 | 1978-11-24 | Cutter head |
Country Status (4)
Country | Link |
---|---|
US (1) | US4263949A (en) |
CA (1) | CA1093291A (en) |
DE (1) | DE2850263A1 (en) |
SE (1) | SE7812063L (en) |
Families Citing this family (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
DE19513699C1 (en) * | 1995-04-11 | 1996-04-25 | Linck Masch Gatterlinck | Tool head for profile cutter for timber |
DE19607318C3 (en) * | 1996-02-27 | 2002-11-21 | Uwe Heisel | Milling tool with reduced noise emissions, preferably for formatting plate-shaped components |
FI103772B1 (en) * | 1996-07-08 | 1999-09-30 | Kauko Rautio | Cutter for woodworking machine |
US5709255A (en) * | 1996-10-18 | 1998-01-20 | Key Knife, Inc. | Chipper with detachable facing knives |
DE10124234B4 (en) * | 2001-05-18 | 2007-02-01 | Wilhelm Fette Gmbh | Rotary milling tool |
SE0103967L (en) * | 2001-11-28 | 2003-04-08 | Iggesund Tools Ab | Procedure for planing a circular stock and blind knife |
IL174720A (en) * | 2006-04-02 | 2010-04-15 | Alexander Khina | Cutting tool |
Family Cites Families (10)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US1472960A (en) * | 1922-10-28 | 1923-11-06 | O K Tool Co | Disk cutter having staggered series of side teeth |
US3330315A (en) * | 1964-05-09 | 1967-07-11 | Dominion Tar & Chemical Co | Log reducer |
US3346028A (en) * | 1966-08-08 | 1967-10-10 | Runnion Ernest E | Profiling of a log by use of cutter heads, and improved pulp chip produced thereby |
US3487865A (en) * | 1967-08-16 | 1970-01-06 | Runnion Ernest E | Cutter-head structure |
SE339389B (en) * | 1968-12-20 | 1971-10-04 | Kockum Soederhamn Ab | |
GB1383209A (en) * | 1971-08-14 | 1975-02-05 | Hawker Siddeley Canada Ltd | Machine for slabbing logs |
SE381601B (en) * | 1972-09-21 | 1975-12-15 | Kockums Ind Ab | MOWER |
DE2529123A1 (en) * | 1975-06-30 | 1977-01-27 | Kivimaa Eero Mikael | Tree trunk or board trimmer rotary cutter head - has system for complete coverage of width of cut using radially spaced blades |
US3986543A (en) * | 1975-07-21 | 1976-10-19 | Kimball International, Inc. | Rotary cutter knife |
FI55784C (en) * | 1976-07-30 | 1979-10-10 | Eero Mikael Kivimaa | COUPLE INTERESTS |
-
1978
- 1978-11-14 US US05/960,796 patent/US4263949A/en not_active Expired - Lifetime
- 1978-11-20 DE DE19782850263 patent/DE2850263A1/en not_active Ceased
- 1978-11-23 SE SE7812063A patent/SE7812063L/en unknown
- 1978-11-24 CA CA316,848A patent/CA1093291A/en not_active Expired
Also Published As
Publication number | Publication date |
---|---|
DE2850263A1 (en) | 1979-05-31 |
SE7812063L (en) | 1979-05-25 |
US4263949A (en) | 1981-04-28 |
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Legal Events
Date | Code | Title | Description |
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MKEX | Expiry |